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modelling and optimizing energy systems within port environments, with a focus on renewable energy integration, grid management, and hydrogen storage. The ideal candidate will possess expertise in
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from Optimised Hydrogen Lifecycle (SPOHL). We are seeking a skilled researcher to lead our efforts in modelling and optimizing energy systems within port environments, with a focus on renewable energy
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operational requirements, constraints, and performance objectives. 5. Investigate advanced control strategies and energy management techniques to maximize the utilization of renewable energy sources and
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management techniques to maximize the utilization of renewable energy sources and minimize environmental impact, including making ships hydrogen-ready, ammonia-ready, and compatible with other emerging
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Post-doctoral Research Fellow to work on the Offshore Renewable Energy Supergen Hub project, based at the University of Southampton, on a fixed-term contract of up to 3 years. The Research Fellow will
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to model and analyse signal transmission mechanisms in cellular/cell-free massive MIMO. Explore applications of these findings in areas such as localizations, large-scale MIMO radar, extremely large aperture
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sustainable-by-design approaches and ensure scalability of the solution to meet the growth demand for offshore renewable energy. We are seeking candidates with a background in civil engineering, preferably with
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research in next generation MIMO systems. Investigate and apply Communication Theory and/or Electromagnetic Information Theory to model and analyse signal transmission mechanisms in cellular/cell-free
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to meet the growth demand for offshore renewable energy. We are seeking candidates with a background in civil engineering, preferably with experience in geotechnical physical, analytical and/or numerical
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trajectories, uncover gene regulatory networks dynamics, and delineate cell fate transition paths. You will work primarily with single cell NGS data from stem cell self-renewal, differentiation and perturbation